CN105559792A

CN105559792A - Spectrometric apparatus and storage case

Info

Publication number: CN105559792A
Application number: CN201510695179.1A
Authority: CN
Inventors: 樱井和徳
Original assignee: Seiko Epson Corp
Current assignee: Seiko Epson Corp
Priority date: 2014-10-30
Filing date: 2015-10-22
Publication date: 2016-05-11
Also published as: US10485464B2; JP2016090250A; US20160120450A1

Abstract

The invention relates to a spectrometric apparatus and a storage case. A biological body inspection apparatus (1) includes a measurement module (10) that acquires an amount of light having a wavelength under measurement contained in light incident on the measurement module and an enclosure (20) that accommodates the measurement module and has a window (23) that transmits light traveling toward the measurement module (10). An adhesive member (24) is provided on a surface of the enclosure at least in an area thereof that surrounds the window. The adhesive member has a light blocking section (241) that is located in an area outside the window and surrounds the window in a plan view in the direction along the optical axis of the light traveling toward the measurement module and blocks light that belongs to a measurement wavelength region within which at least the wavelength under measurement is present.

Description

Spectroscopic measurement device and safe deposit box

Technical field

The present invention relates to spectroscopic measurement device and safe deposit box.

Background technology

There will be a known by target illumination light, and the light receiving provision wavelengths is as the light from target, thus obtains the device (such as, patent documentation 1) of the light quantity of this provision wavelengths.

Patent Document 1 discloses a kind of pulse detecting device, make the luminescence unit comprising infrared LED (LightEmittingDiode: light emitting diode) and green LED luminous, utilize photodiode (light receiving unit) reception from the light of target, detect pulse according to light result.

In this pulse detecting device, photodiode is configured in enclosure interior, drops into light from the opening being arranged on housing towards enclosure interior.Protuberance is formed to surround the mode being arranged on the opening of this housing.Measure under the state that this protuberance is connected to target.

But, in the device that patent documentation 1 is recorded, by device by pressing to target, target distortion is made by protuberance, thus suppress outer light to invade from the gap between housing and target, therefore necessary Continued depression device, likely produces above-mentioned gap when pressing force changes.If produce such gap, then there is the inside that outer light invades housing, reduce the problem of estimating precision.

At first technical literature

Patent documentation

Patent documentation 1: Japanese Patent Laid-Open 2005-160641 publication

Summary of the invention

The object of the present invention is to provide a kind of intrusion suppressing outer light, improve spectroscopic measurement device and the safe deposit box of estimating precision.

Feature according to the spectroscopic measurement device of of the present invention use-case is to possess: measure module, obtain the light quantity of the light of the mensuration target wavelength be included in incident illumination; And, housing, hold described mensuration module, and there is the window portion making to pass through towards the light of described mensuration module, region in the surface of this housing of described housing, that at least surround described window portion is provided with bonding part, in the top view observed along the direction towards the optical axis of the light of described mensuration module, the outside in the described window portion that described bonding part has in this region surrounds this window portion, at least blocks the light shielding part of the light of the mensuration wavelength region comprising described mensuration target wavelength.

Should the spectroscopic measurement device of use-case in surface of shell comprise the region in window portion at least partially on be provided with bonding part.In the top view observed along the direction of the optical axis measuring the light that module receives, this bonding part has the light shielding part at least blocking the light measuring wavelength region in the outside in window portion.

Should in use-case, from the side arranging fenestrate portion by spectroscopic measurement device by when pressing to the target of mensuration, by bonding part, housing can be close in target.Thus, by being close to the light shielding part of the bonding part of target, outer light can be blocked.Thus outer light that can suppress to have passed gap between target and housing and window portion, that comprise the light measuring wavelength region arrives enclosure interior and by mensuration module light, can improve estimating precision.

Preferably, should in the spectroscopic measurement device of use-case, in described top view, described light shielding part be arranged on the inner side of the outer peripheral edge of described bonding part.

Should in use-case, transmittance section be arranged on the outside of light shielding part, and namely, light shielding part is arranged on the inner side of the outer peripheral edge of bonding part.Easily peel off at the outer peripheral edge bonding part of bonding part.When putting light shielding part along this outer peripheral edge, the part that outer light is likely peeled off from light shielding part invades.To this, in use-case, because light shielding part is arranged on the inner side of the outer peripheral edge that the bonding part peeled off easily occurs, therefore, it is possible to suppress the stripping of light shielding part, the intrusion of outer light should reliably can suppressed.

Preferably, should in the spectroscopic measurement device of use-case, in described top view, described light shielding part be arranged along the outer rim in described window portion.

Should in use-case, the outer rim along window portion arranges light shielding part.In such formation, owing to arranging light shielding part along window portion, therefore, it is possible to effectively suppress the intrusion of above-mentioned outer light.

Preferably, should in the spectroscopic measurement device of use-case, described bonding part has the transmittance section of the light transmission at least making described mensuration wavelength region, described light shielding part and described transmittance section integrally formed.

Should in use-case, due to light shielding part and transmittance section integrally formed, therefore, such as, when changing bonding part, whole bonding part can be peeled off together.Further, when bonding part is configured in housing, can configure integratedly.Thus, by making bonding part aim at shell position, can by light shielding part configuration in position.Thereby, it is possible to easily carry out the replacing of bonding part.

Preferably, should in the spectroscopic measurement device of use-case, described bonding part has the transmittance section being arranged at position overlapping with described window portion in described top view, at least making the light transmission of described mensuration wavelength region, described window portion has the opening being arranged on described housing and the light transparent member being configured in this opening, and the refractivity of described transmittance section and described light transparent member is below the threshold value specified.

Should in use-case, bonding part has and is arranged on the position overlapping with window portion and the transmittance section making the light transmission of mensuration wavelength region, and the refractivity of this transmittance section and light transparent member is below the threshold value specified.In such formation, compared with forming the situation of air layer between target and window portion, the refractivity at the interface of light transparent member can be reduced.Thus, the reflection on this interface can be suppressed, can light utilization efficiency be improved.

In addition, the threshold value of afore mentioned rules is the value of the degree of the reflections affect that can allow on interface, above-mentioned window portion, is the value of the refractivity being at least less than air and light transparent member.

Preferably, should in the spectroscopic measurement device of use-case, also possess the circuit substrate being provided with the control part controlling this spectroscopic measurement device, described light shielding part contains carbon conductive filler and has electric conductivity, and described housing has the wiring of light shielding part described in conducting and described circuit substrate.

Should in use-case, light shielding part be by having electric conductivity containing carbon conductive filler.This light shielding part and circuit substrate are passed through wiring conducting, thus, light shielding part can be used as electrode.Such as, when using epidermis as measure target time, make light shielding part contact this epidermis, thus, can be used as by the ground electrode of circuit substrate ground connection.

Preferably, should in the spectroscopic measurement device of use-case, described mensuration module possesses: light source portion, towards target illumination light; Divide optical filter, from the light from described target, select the light injection of the wavelength specified, and the wavelength of the light of injection can be changed; And light accepting part, receive the light from described point of optical filter.

Should in use-case, have point optical filter light from light source being carried out to light splitting, this point of optical filter be configured to change selected wavelength.In such formation, easily can carry out spectral photometry to multiple mensuration wavelength.

A kind of safe deposit box being contained in multiple bonding sheets bonding part being pasted with stripping film according to the safe deposit box of an application examples of the present invention, described bonding part is arranged on going up at least partially of the surface of the spectroscopic measurement device of the light quantity of the light obtaining the mensuration target wavelength be included in incident illumination, the feature of described safe deposit box is, described spectroscopic measurement device possesses: measure module, obtain described light quantity; And housing, hold described mensuration module, and there is the window portion making to pass through towards the light of described mensuration module, the surface set of described housing has and at least surrounds described window portion and the region being provided with bonding part, in the top view that the direction of the optical axis along the light towards described mensuration module is observed, the outside in the described window portion that described bonding part has in this region surrounds this window portion, at least block the light shielding part of the light of the mensuration wavelength region comprising described mensuration target wavelength, described safe deposit box possesses: bottom, has the placed side of placing described bonding sheet; And sidewall portion, continuous around described placed side, arrange along being toward or away from connecing of described bottom from direction, described sidewall portion comprises: the first limiting unit, with abutting at least partially of the outer peripheral edge of described stripping film, limit and the described position connect from the described stripping film in orthogonal face, direction; And second limiting unit, when by described window portion towards described placed side, make described spectroscopic measurement device along be toward or away to connect described in described bottom move from direction time, abutting at least partially of the outer peripheral edge of described second limiting unit and described housing, limit the position of the described spectroscopic measurement device in described orthogonal face, with make described connect observe on direction time described bonding part and described region overlapping.

Should in use-case, safe deposit box is limited by the first limiting unit and is toward or away from the direction of bottom (below, also referred to as connecing from direction) position of stripping film in orthogonal face, thus, bonding sheet is configured in and connects from the assigned position in orthogonal face, direction.In addition, when spectroscopic measurement device is moved along the direction being toward or away from bottom, safe deposit box is limited and the position connect from the spectroscopic measurement device in orthogonal face, direction by the second limiting unit, make connect observe on direction time, bonding part is overlapping with the region arranging bonding part.

In such formation, at the position of the regulation of housing configuration bonding part, namely, can configure light shielding part in the position of the regulation of housing.Thus, can more reliably and easily form the spectroscopic measurement device that can obtain the effect of above-mentioned application examples.

Accompanying drawing explanation

Fig. 1 illustrates the axonometric chart comprising the schematic configuration of the safe deposit box of the bonding sheet of the bonding part be pasted onto on this organism testing fixture according to the organism testing fixture of one embodiment of the present invention and keeping.

Fig. 2 is the sectional view of the schematic configuration that organism testing fixture is shown.

Fig. 3 is the sectional view of the schematic configuration that variable-wavelength interference filter is shown.

Fig. 4 is the top view on the surface of the counterpart schematically showing the organism testing fixture being pasted with bonding part.

(A) and (B) of Fig. 5 is the schematic diagram of the formation of bonding sheet, (A) of Fig. 5 is the top view observing bonding sheet from thickness direction, and (B) of Fig. 5 is the sectional view in the cross section after through-thickness cut-out bonding sheet is shown.

Fig. 6 is the axonometric chart of the schematic configuration that safe deposit box is shown.

Fig. 7 be illustrate from the top view of vertical direction to placement in the horizontal plane and accommodate the top view of the safe deposit box of bonding sheet.

Fig. 8 be illustrate from the top view of vertical direction to placement in the horizontal plane and accommodate the top view of the safe deposit box of bonding sheet.

Fig. 9 be illustrate from the top view of vertical direction to placement in the horizontal plane and recess arrangement has the top view of the safe deposit box of organism testing fixture.

Detailed description of the invention

Below, an embodiment of the invention are described.

Fig. 1 illustrates the axonometric chart comprising the schematic configuration of the safe deposit box 40 of the bonding sheet 30 of the bonding part 24 be pasted onto on organism testing fixture 1 according to the organism testing fixture 1 of an embodiment of spectroscopic measurement device of the present invention and keeping.

Organism testing fixture 1 shown in Fig. 1, being close under the state that the arm etc. that measures target, such as mensuration person measures target, towards this mensuration target illumination light, and obtains its spectrophotometric spectra, utilizes this spectroscopic analysis to be included in composition in organism.Describe this organism testing fixture 1 below in detail, during mensuration, on the assigned position on the surface of the counterpart towards mensuration target side, bonding part 24 is installed, so that housing 20 is close to mensuration target.This bonding part 24 is contained in the safe deposit box 40 shown in Fig. 1 with the state be pasted onto on stripping film 31,32.In addition, utilize this safe deposit box 40, bonding sheet 30 can be arranged on the position of the regulation on the surface of counterpart.The formation of bonding sheet 30 and safe deposit box 40 is described in detail below.

[formation of organism testing fixture]

Fig. 2 is the figure of the schematic configuration that organism testing fixture 1 is shown.

The organism testing fixture 1 of present embodiment is equivalent to spectroscopic measurement device of the present invention, as shown in Figure 2, possesses the housing 20 measuring module 10 and hold this mensuration module 10.This organism testing fixture 1, as a kind of example, illustrates the formation of the oxygen saturation of the blood that mensuration flows in vivo.

[measuring the formation of module]

As shown in Figure 2, measure module 10 and there is variable-wavelength interference filter 5, light source portion 11, light accepting part 12 and circuit substrate 13.These light source portion 11, variable-wavelength interference filter 5 and light accepting part 12 are covered by the resin mould 14 of cylindrical shape, and integrated is fixed on circuit substrate 13.

[formation of variable-wavelength interference filter]

Fig. 3 is the sectional view of the schematic configuration that variable-wavelength interference filter 5 is shown.

Variable-wavelength interference filter 5 is beam splitters, makes the light transmission of the provision wavelengths from the light measuring target reflection.This variable-wavelength interference filter 5 has fixing base 51 and the movable substrate 52 of light transmission, these fixing bases 51 and movable substrate 52 are engaged by junction film 53 and are integrally constituted, wherein, junction film 53 is made up of the plasma polymerization film etc. with siloxanes being such as main constituent.Compared with when such as adopting AOTF (Acousto-OpticTunableFilter: acousto-optic tunable filter) or LCTF (Liquidcrystaltunablefilter: liquid crystal tunable filter) as beam splitter etc., such variable-wavelength interference filter 5 can reduce component size, can realize the miniaturization measuring module 10.

Fixing base 51 possesses the electrode configured slot 511 and reflectance coating setting unit 512 that are formed by etching method.In addition, in electrode configured slot 511, be provided with fixed electrode 561, in reflectance coating setting unit 512, be provided with fixation reflex film 54.

Fixed electrode 561 is formed as the ring-type of such as surrounding reflectance coating setting unit 512 in electrode configured slot 511.

The alloy film such as the metal films such as such as Ag or Ag alloy can be used as this fixation reflex film 54.Further, such as high refracting layer can also be used to be TiO ₂, forming low-refractive-index layer is SiO ₂dielectric multilayer film.And, also can use reflectance coating dielectric multilayer film being laminated with metal film (or alloy film) or the reflectance coating being laminated with dielectric multilayer film on metal film (or alloy film), be laminated with monolayer refracting layer (TiO ₂or SiO ₂deng) and the reflectance coating etc. of metal film (or alloy film).

As shown in Figure 3, movable substrate 52 possesses movable part 521 and is arranged on the outside of movable part 521 and keeps the maintaining part 522 of movable part 521.

The gauge of movable part 521 is formed as being greater than maintaining part 522, such as, in the present embodiment, is formed as the size identical with the gauge of movable substrate 52.In wave filter top view, this movable part 521 is formed as the diameter dimension that diameter dimension is at least greater than the outer peripheral edge of reflectance coating setting unit 512.In addition, this movable part 521 is provided with movable electrode 562 and movable reflectance coating 55.

Movable electrode 562 is arranged on the position relative with fixed electrode 561.Further, movable reflectance coating 55 is configured in the position relative with fixation reflex film 54 across clearance G 1.The reflectance coating with the above-mentioned identical formation of fixation reflex film 54 is adopted as this movable reflectance coating 55.Variable-wavelength interference filter 5, from along with each reflectance coating 54, the mensuration target light of 55 orthogonal optical axis L by each reflectance coating 54,55 relative effective coverage A1, makes the light transmission corresponding with the size of clearance G 1.

Maintaining part 522 is the barrier films of the surrounding surrounding movable part 521, is formed as gauge and is less than movable part 521.Such maintaining part 522 is more prone to flexure, only because a little electrostatic attraction just can make movable part 521 to fixing base 51 side displacement than movable part 521.Thus, under the state of the depth of parallelism maintaining fixation reflex film 54 and movable reflectance coating 55, the gap size of clearance G 1 can be changed.

In addition, septiform maintaining part 522 is shown in the present embodiment, but is not limited thereto, can also adopt and be provided with such as centered by planar central point, the formation etc. of the beam-like maintaining part of angularly interval configuration.

In above-mentioned this variable-wavelength interference filter 5, form electrostatic actuator 56 by fixed electrode 561 and movable electrode 562, these electrodes 561,562 are connected to control device by the not shown voltage control circuit (driver) be arranged on circuit substrate 13.In addition, under control of the control means, apply voltage from voltage control circuit to electrostatic actuator 56, thus the electrostatic attraction corresponding to voltage acts between electrode 561,562, change the gap size of clearance G 1 between reflectance coating.Thereby, it is possible to change the wavelength of the light through variable-wavelength interference filter 5 in mensuration targeted wavelength region.

[formation of light source portion, light accepting part and circuit substrate]

Return Fig. 2, light source portion 11 is from being arranged on the window portion 23 illustrated of housing 20 below to mensuration target illumination light.As the light irradiated, when carrying out component analysis, as long as comprise the light of the absorbing wavelength (natural wavelength) of the composition of evaluating objects, such as, irradiate the light in visible light region near infrared light region.For this light source portion 11, such as, the light source 111 such as LED or OLED (OrganicLightEmittingDiode: Organic Light Emitting Diode) or stratie is arranged on the supporting substrate 112 of light transmission.In addition, light source 111 along the optical axis of the variable-wavelength interference filter 5 illustrated below, be configured in not with from measuring target X towards the overlapping position of the light path of the light of variable-wavelength interference filter 5.Further, be suitably configured with the light guide members such as reflector in variable-wavelength interference filter 5 side of light source 111, for by the luminous reflectance from this light source 111 to being positioned at the mensuration target X with variable-wavelength interference filter 5 opposition side.

Light accepting part 12 receives the light through variable-wavelength interference filter 5, and exports the detection signal corresponding to its light income to not shown control device.This light accepting part 12 possesses photo detector 121, be provided with the supporting substrate 122 of photo detector 121 and be configured in the sensitive surface side (variable-wavelength interference filter 5 side) of photo detector 121 and cover the transparent substrates 123 of photo detector 121 and supporting substrate 122.In addition, such as employing imageing sensor etc. are as photo detector 121, thus can obtain image.

Circuit substrate 13 is provided with control device (control part) (not shown) for controlling organism testing fixture 1.Further, as mentioned above, on circuit substrate 13, light source portion 11, variable-wavelength interference filter 5 and light accepting part 12 are covered by resin mould 14, are fixed on integratedly on circuit substrate 13.This circuit substrate 13 is fixed on housing 20.In addition, light source portion 11, variable-wavelength interference filter 5 and light accepting part 12 configure successively.In addition, between light source portion 11 and variable-wavelength interference filter 5 and between variable-wavelength interference filter 5 and light accepting part 12, be filled with translucent resin 15, and be engaged with each other by this resin 15.Thus, can suppress between light source portion 11 and variable-wavelength interference filter 5 and form air layer between variable-wavelength interference filter 5 and light accepting part 12 and reflect.

[formation of housing]

As shown in Figure 2, the inside of housing 20 is formed with spatial accommodation, measures module 10 and is contained in this spatial accommodation.

In addition, the surface of housing 20 is provided with display part 25 and receives the action button (not shown) etc. of user's instruction.Further, housing 20 is provided with the band portion 26 of the band shape of the targets such as arm for organism testing fixture 1 being installed on user.

One in two wall portion in the wall portion of housing 20, that intersect with optical axis L is the fixed part 21 being fixed with circuit substrate 13, and another is towards measuring target X side and the counterpart 22 relative with measuring target X when measuring.

The inner surface of fixed part 21 is fixed with circuit substrate 13 by binding agent etc.

The position overlapping with effective coverage A1 of counterpart 22 is formed with the light set the goal of testing oneself in the future and guides to inner window portion 23.In addition, in the present embodiment, as shown in Figure 2, between counterpart 22 and light source portion 11, be also filled with translucent resin 15, can suppress owing to forming air layer and reflect.

Fig. 4 is the figure of the schematic configuration of the organism testing fixture 1 illustrated when observing from counterpart 22 side.

As shown in Fig. 2 and Fig. 4, configure light transparent member 232 at the opening 231 being arranged on housing 20, thus form window portion 23.The material that light transparent member 232 has light transmission by glass, quartz, Merlon and acrylic etc. is formed.

At this, as shown in Figure 4, preferably, in the top view observed along optical axis L, the size of opening 231 is formed as the size being greater than effective coverage A1, is less than the size of the inner edge 14A of the peristome of resin mould 14.By the size of opening 231 is formed as the size being greater than effective coverage A1, thus light can be made to inject the whole region of effective coverage A1.Further, by the size of opening being formed as the size of the inner edge 14A of the peristome being less than resin mould 14, thus can suppress to be become stray light from a part for the light of opening incidence by after the end face reflection of counterpart 22 side of resin mould 14.

The surperficial 22A of counterpart 22 is provided with bonding part 24.In the top view observed along optical axis L, this bonding part 24 is the sheet components covering window portion 23 and configuration.As shown in Figure 4, bonding part 24 to have in above-mentioned top view in the outside in window portion 23 and the inner side of the outer peripheral edge 24A of bonding part 24, the light shielding part 241 arranged along the outer peripheral edge in window portion 23 in the mode of surrounding window portion 23 and the transmittance section 242 except light shielding part 241.Bonding part 24 is that these light shielding parts 241 and transmittance section 242 are integrally formed and have fusible sheet component.

Light shielding part 241 has cohesive, is the gelatinous resin comprising carbon conductive filler.In addition, carbon conductive filler can adopt white carbon black, carbon fiber and graphite etc. to have the material with carbon element of electric conductivity.Thus, light shielding part 241 at least blocks the light as the visible light region measuring wavelength region.Further, the various resins such as silicon resinoid, acrylic resin, epoxylite, polyurethane resin can be used as gelatinous resin.

This light shielding part 241 has electric conductivity, and the connection electrode 221 exposed with the surperficial 22A in counterpart 22 contacts.This connection electrode 221 is connected to circuit substrate 13 by connecting wiring 222 (part is not shown), makes circuit substrate 13 and light shielding part 241 conducting.Light shielding part 241 measures target when measuring with human body etc. and contacts, and can be connected to ground.

Transmittance section 242 is arranged on the position except light shielding part 241, and is close to light transparent member 232 in the position overlapping with window portion 23.This transmittance section 242 is formed by the above-mentioned fusible gelatinous resin that has, and the refractivity between transmittance section 242 and light transparent member 232 is below the threshold value specified.In addition, the threshold value of this regulation is the value of the degree of the reflections affect that can allow on the interface of above-mentioned light transparent member 232, is the value of the refractivity being at least less than air and light transparent member 232.

In addition, light shielding part 241 comprises conductive filler, and therefore cohesive declines sometimes, thus, by suitably adjusting the size of transmittance section 242, the bonding force of expectation can be obtained in whole bonding part 24.

The organism testing fixture 1 of formation described above is carrying out measuring the spectral photometry in wavelength region under being pressed in the state that measures on target X from counterpart 22 side.Namely, bonding part 24 is being close under the state on the surface measuring target X, is making light source portion 11 luminous, obtain the light quantity from the light measuring target X with each wavelength measuring wavelength.Organism testing fixture 1 obtains spectrophotometric spectra according to the light quantity of acquired each mensuration wavelength, carries out component analysis based on the spectrophotometric spectra obtained.Spectrophotometric spectra, by component analysis, is separated into multiple spectral components that peak is different from each other, and based on each spectral components, can calculates the kind of contained composition or the ratio of amount by organism testing fixture 1.In addition, analysis ingredient method, specify the method for the method respectively containing composition and the ratio that calculates amount can adopt known method.

[formation of bonding sheet]

(A) and (B) of Fig. 5 is the schematic diagram of the formation of bonding sheet, (A) of Fig. 5 is the top view observing bonding sheet 30 from thickness direction, and (B) of Fig. 5 is the sectional view that the cross section cut off from thickness direction by bonding sheet 30 is shown.

As shown in (B) of Fig. 5, bonding sheet 30 possess bonding part 24 and, be configured to the first stripping film 31 and the second stripping film 32 clipping this bonding part 24, peelable bonding part 24 at thickness direction.

First stripping film 31 and the second stripping film 32 are such as at the sheet material of the surface-coating resins etc. of base material, easily can peel off the bonding part 24 be pasted onto on surface.

In the top view observed from thickness direction, the profile of the first stripping film 31 and the second stripping film 32 is roughly rectangle, roughly consistent with the profile of the counterpart 22 of housing 20.

As shown in (A) of Fig. 5, the first stripping film 31 has protuberance 311, and this protuberance 311 is given prominence to from the direction orthogonal on one side with this towards the lateral of the first stripping film 31 of rectangle.In the top view observed from thickness direction, this protuberance 311 has the profile of rectangular shape.In addition, when bonding sheet 30 is contained in safe deposit box 40, protuberance 311 is configured at the first groove portion 425 being arranged on safe deposit box 40, and this point illustrates below.

[formation of safe deposit box]

Fig. 6 is the axonometric chart of the schematic configuration that safe deposit box 40 is shown.

Safe deposit box 40 shown in Fig. 6 is housed inside with multiple bonding sheet 30 (with reference to Fig. 1).Further, safe deposit box 40 is also used as fixture when pasting bonding part 24 in the assigned position of organism testing fixture 1.

As shown in Figure 6, this safe deposit box 40 has and possesses substantially rectangular bottom 41 and erect from the edge, periphery of bottom 41 and surround the sidewall portion 42 of the surrounding of described bottom 41.Bonding sheet 30 be contained in by bottom this 41 and the recess 43 that formed of sidewall portion 42 in.

The inner surface 41A surrounded by sidewall portion 42 of bottom 41 plays the function of the placed side of placing bonding sheet 30.In the top view observed from the thickness direction of bottom 41, the internal face 42A in sidewall portion 42 is positioned at the position with the roughly the same position of the outer peripheral edge 30A of the outer peripheral edge 20A of housing 20 or bonding sheet 30 (each stripping film 31,32) or outside a little.Thus, bonding sheet 30 is configured at the inner surface 41A of bottom 41 and does not bend.

Sidewall portion 42 has the first side wall portion 421, the second sidewall portion 422 relative with the first side wall portion 421, the three sidewall portion 423 adjacent with the first side wall portion 421 and the four sidewall portion 424 relative with the 3rd sidewall portion 423.

The first side wall portion 421 in these each sidewall portions 421 ~ 424 possesses the first groove portion 425.Under the state accommodating bonding sheet 30 in safe deposit box 40, the protuberance 311 of the first stripping film 31 is configured in the first groove portion 425.First groove portion 425 is orthogonal with bottom 41, has a pair relative first groove inner surface 425A.This first groove portion 425 is formed as distance between a pair first groove inner surface 425A, namely, the width dimensions in this first groove portion 425 is slightly larger or roughly the same than the width dimensions (size in the direction orthogonal with projected direction) of protuberance 311.Further, the first groove portion 425 is arranged on a part for the mid portion in sidewall portion 421, arrives bottom 41 at above-mentioned thickness direction.

Further, the 3rd sidewall portion 423 and the 4th sidewall portion 424 have the second groove portion 426 respectively.In above-mentioned top view, the second groove portion 426 is arranged on the position of the respective mid portion in the 3rd sidewall portion 423 that comprises and the 4th sidewall portion 424.

Under the state being configured with organism testing fixture 1 in safe deposit box 40, the band portion 26 of this organism testing fixture 1 is configured in the second groove portion 426.This second groove portion 426 is formed as distance between a pair respective second groove inner surface 426A, namely, the width dimensions in this second groove portion 426 is slightly larger or roughly the same than the width dimensions (size of the width in banded band portion 26) in band portion 26.

In addition, under the depth dimensions in the second groove portion 426 is set to the state being configured with organism testing fixture 1 in safe deposit box 40, the groove bottom in the second groove portion 426 can not interfere with the size in band portion 26.

At this, the function abutting that limit the position of this bonding sheet, of the present invention first limiting unit at least partially with the outer peripheral edge 30A of bonding sheet 30 (each stripping film 31,32) is played in sidewall portion 42 and the first groove portion 425.In addition, the function as the first limiting unit is described below.

Further, the function abutting that limit the position of this housing 20, of the present invention second limiting unit at least partially with the outer peripheral edge 20A of housing 20 is played in sidewall portion 42 and the second groove portion 426.In addition, the function as the second limiting unit is described below.

[gluing steps of bonding sheet]

Fig. 7 ~ Fig. 9 is the top view of the safe deposit box 40 of observing bottom 41 horizontal placements from vertical direction.In addition, in Fig. 7 and Fig. 8, in safe deposit box 40, accommodate bonding sheet 30.Further, in fig .9, organism testing fixture 1 is configured in safe deposit box 40.In addition, in Fig. 7 ~ Fig. 9, the gap size between the internal face 42A of safe deposit box 40 and the housing 20 of organism testing fixture 1 and bonding sheet 30 is illustrated as larger than actual size.

On the bottom 41 of safe deposit box 40, multiple (in the example shown in accompanying drawing being 5) bonding sheet 30 is contained in (with reference to Fig. 1) in safe deposit box 40 with state stacked in the vertical direction.At this moment, as shown in Figure 7, bonding sheet 30 is contained in safe deposit box 40 along the mode of the internal face 42A of safe deposit box 40 with the outer peripheral edge of each stripping film 31,32 (the outer peripheral edge 30A of bonding sheet 30).Further, bonding sheet 30 to be received along the outer edge of the projected direction of this protuberance 311 along the mode of the first groove inner surface 425A by the first groove portion 425 with the protuberance 311 of the first stripping film 31.Thereby, it is possible to bonding sheet 30 to be configured in the assigned position of safe deposit box 40.Further, user utilizes protuberance 311, easily can carry out taking-up and the accommodation of bonding sheet 30.

Then, the first stripping film 31 being positioned at uppermost bonding sheet 30 in multiple bonding sheet 30 is stripped (with reference to Fig. 8).As shown in Figure 8, the first stripping film 31 being configured in this uppermost bonding sheet 30 is stripped, and exposes bonding part 24.In addition, the outer peripheral edge of the second stripping film 32 configures along the internal face 42A of safe deposit box 40, therefore, it is possible to when suppressing stripping the first stripping film 31, peel off after bonding sheet 30 depart from position in safe deposit box 40.

Then, as shown in Figure 9, remove the organism testing fixture 1 after bonding part 24 with counterpart 22 state downward from counterpart 22 (with reference to Fig. 2), move to the below of vertical direction (being toward or away from the direction of bottom 41) along the internal face 42A of safe deposit box 40.Then, bonding part 24 is pasted onto counterpart 22.

At this, it is slightly less than the internal face 42A of safe deposit box 40 that the housing 20 of organism testing fixture 1 is formed as outer peripheral edge 20A when observing from the direction orthogonal with counterpart 22.Therefore, organism testing fixture 1 is connected to internal face 42A at least partially at outer peripheral edge 20A, and connects the state be restricted from the position on the orthogonal horizontal plane in direction and moves in the vertical direction.In addition, be provided with the gap (gap of such as 0.6mm) of regulation between the outer peripheral edge 20A of housing 20 and internal face 42A, steadily can move to make the organism testing fixture 1 be contained in safe deposit box 40 and can not the position of the organism testing fixture 1 relative to safe deposit box 40 in occurred level face depart from.Thus, organism testing fixture 1 moves along the internal face 42A of safe deposit box 40, therefore, it is possible to suppress to depart from the position of safe deposit box 40 inside, can paste bonding part 24 on the assigned position of counterpart 22.

[action effect of embodiment]

In the present embodiment, the region comprising window portion 23 of the counterpart 22 on the surface of housing 20 is provided with bonding part.In the top view observed along the direction of the optical axis L measuring the light that module 10 receives, this bonding part 24 has light shielding part 241 in the outside in window portion 23.

In such formation, when from the side arranging fenestrate portion 23 by organism testing fixture 1 by be pressed in measure target X upper time, by bonding part 24, housing 20 can be close on mensuration target X.At this moment, by being close to the light shielding part 241 of the bonding part 24 measuring target X, the outer light comprising the light measuring wavelength region can be blocked.Thus after the outer light by measuring gap between target X and housing 20 and window portion 23 can be suppressed to arrive the inside of housing 20, determined module 10 receives, and can improve estimating precision.

Further, by utilizing bonding part 24 to be close to housing 20, thus, organism testing fixture 1 can be suppressed to depart from the position measuring target X, can estimating precision be improved.

Further, in the present embodiment, transmittance section 242 is arranged on the outside of light shielding part 241.Namely, light shielding part 241 is arranged on the inner side of the outer peripheral edge 24A of bonding part 24.Near the outer peripheral edge 24A of bonding part 24, bonding part 24 is easily peeled off.When arranging light shielding part 241 along this outer peripheral edge 24A, the part that outer light is likely stripped from light shielding part 241 invades.On the other hand, as shown in the embodiment, light shielding part 241 is arranged on the inner side of the outer peripheral edge 24A of bonding part 24, therefore, it is possible to suppress the stripping of light shielding part 241, can more reliably suppress outer light to invade.

Further, in the present embodiment, the inner side and outer side of light shielding part 241 is provided with transmittance section 242.In such formation, being close in target by the transmittance section 242 of the inner side and outer side by being arranged on light shielding part 241, light shielding part 241 can be suppressed to be stripped.Thus, can more reliably suppress outer light to invade because light shielding part 241 is stripped.

In addition, in the present embodiment, light shielding part 241, containing carbon conductive filler, obtains light-proofness by this carbon conductive filler, but reduces cohesive sometimes.Even if in this case, measure on target X by the transmittance section 242 of the inner side and outside that are configured in light shielding part 241 is close to, as mentioned above, light shielding part 241 can be suppressed to be stripped.

Further, in the present embodiment, in the top view observed along optical axis L, the outer peripheral edge along the opening 231 in window portion 23 is provided with light shielding part 241.In such formation, light shielding part 241 can be arranged on the position closer to window portion 23, even if bonding part 24 is stripped in the position away from window portion 23, the light shielding part 241 near window portion 23 also can be suppressed to be stripped, more effectively can to suppress the intrusion of above-mentioned outer light.

Further, in the present embodiment, light shielding part 241 and the transmittance section 242 of bonding part 24 are integrally formed, therefore, when changing bonding part 24, entirety can be peeled off together or paste.Further, when bonding part 24 being configured in the regulation region of surperficial 22A of counterpart 22, can integrally configure.Thus, by making bonding part 24 and housing 20 aligned position, light shielding part 241 configuration can be in the proper place.Thereby, it is possible to easily carry out the replacing of bonding part 24.

Further, in the top view observed along optical axis L, bonding part 24 has the transmittance section 242 be arranged on the position overlapping with window portion 23, measures between target X and window portion 23 and configures transmittance section 242.The refractivity of this transmittance section 242 and light transparent member 232 is below the threshold value specified.In such formation, with measure form air layer between target X with window portion 23 situation compared with, the difference of the refractive index at the interface of light transparent member 232 can be reduced.Thus, the reflection at this interface can be suppressed, the utilization ratio of light can be improved.

Further, light shielding part 241 has electric conductivity containing carbon conductive filler.By making this light shielding part 241 and circuit substrate 13 conducting via connection electrode 221 and connecting wiring 222, light shielding part 241 can be used as electrode.Such as, during using epidermis as mensuration target, by making light shielding part 241 contact this epidermis, thus, the ground electrode of circuit substrate 13 as ground connection can be used.

Further, in the present embodiment, as point optical filter light from light source portion 11 being carried out to light splitting, the variable-wavelength interference filter 5 that can change selected wavelength is possessed.In such formation, easily can implement the spectral photometry for multiple mensuration wavelength.

And, in the present embodiment, safe deposit box 40 by limit as the first groove portion 425 of the first limiting unit and internal face 42A be toward or away from bottom 41 connect from orthogonal face, direction, the position of the first stripping film 31 and the second stripping film 32, thus, configuring bonding sheet 30 with the assigned position connect in the face orthogonal from direction.And, along connect to move organism testing fixture 1 from direction time, safe deposit box 40 by limit as the internal face 42A of the second limiting unit with along optical axis L direction (with connect from direction consistent) position of organism testing fixture 1 in orthogonal face, when observing from the direction (connecing from direction) along optical axis L, the setting position of the light shielding part 241 of the bonding part 24 in the counterpart 22 of bonding part 24, housing 20 and this light shielding part 241 on housing 20 surface overlaps.In such formation, can at the assigned position of housing 20 configuration bonding part 24.

[distortion of embodiment]

The present invention is not limited to above-mentioned each embodiment and variation, and the distortion carried out in the scope that can realize object of the present invention, improvement etc. include in the present invention.

Exemplify the formation that bonding part 24 is pasted on the whole region in the regulation region preset of the counterpart 22 of housing 20 in the above-described embodiment, but the present invention is not limited thereto.Such as, in the top view observed along optical axis L, as long as light shielding part 241 is pasted onto on the region of the whole periphery surrounding this window portion 23 in the outside in window portion 23.According to such formation, in above-mentioned top view, light shielding part 241 can be pasted onto the outside of the position along outer peripheral edge, window portion 23.

Further, can also be whole region outside window portion 23 in bonding part 24 be light shielding part 241.Further, can also be that the region (such as, overlapping with window portion 23 region) of inner side of light shielding part 241 in above-mentioned top view arranges transmittance section 242.Further, can also adopt and transmittance section 242 is not set in the region in the outside of light shielding part 241, and only there is the bonding part 24 of light shielding part 241.

In the above-described embodiment, other wavelength region such as near infrared region to be illustrated as the situation measuring target wavelength, but the present invention is not limited thereto, can also using long for visible light region as mensuration targeted wavelength region.At this moment, light shielding part 241 is formed by the material that at least can block the light being included in the wavelength measuring wavelength region.

In the above-described embodiment, show the integrally formed formation of the light shielding part 241 of bonding part 24 and transmittance section 242, but the present invention is not limited thereto, and can also be the formation individually arranging light shielding part 241 and transmittance section 242.

In the above-described embodiment, show the formation that light shielding part 241 has electric conductivity, but the present invention being not limited thereto, can also be the formation without electric conductivity.

In the above-described embodiment, from the top view that the thickness direction of bottom 41 is observed, the outer peripheral edge of housing 20 is roughly the same shape with the shape of the internal face 42A of safe deposit box 40, thus housing 20 is moved along internal face 42A, but, the present invention is not limited thereto, can also be have organism testing fixture 1 is located relative to safe deposit box 40 after make it along connecing the formation of the guide from direction movement.Particularly, can be such as, internal face 42A and in housing 20 and bonding sheet 30 of safe deposit box 40 square become along close to the protuberance connect from direction leaving bottom 41, forming recess for inserting this protuberance the opposing party, making by protuberance is inserted recess organism testing fixture 1 and bonding sheet 30 positioning with connecing in the face orthogonal from direction.Further, the such recess of many groups and protuberance can also be set.

In the above-described embodiment, show the formation only having the first stripping film 31 in the first stripping film 31 of bonding sheet 30 and the second stripping film 32 to have protuberance 311, but the present invention is not limited thereto, it can also be the formation that the second stripping film 32 also has protuberance in the same manner.Thereby, it is possible to the location of carrying out the protuberance of the second stripping film 32 by the first groove portion 425, can position be more reliably suppressed to be departed from.Further, when peeling off this second stripping film from the organism testing fixture 1 of the state being pasted with the second stripping film 32, by utilizing the protuberance of the second stripping film 32, can it be easily made to peel off.

In the above-described embodiment, the formation of the function of the first limiting unit of the position of restriction bonding sheet 30 is played in the first groove portion 425 that shows, but the present invention is not limited thereto, can also be that the width dimensions in the first groove portion 425 is greater than protuberance 311, not there is the formation of the first limiting unit function.

In the above-described embodiment, show the formation that the function of the second limiting unit of the position in check strap portion 26 is played in the second groove portion 426, but the present invention is not limited thereto, can also be that the width dimensions in the second groove portion 426 is greater than band portion 26, not there is the formation of the second limiting unit function.

Further, when not arranging band portion 26, safe deposit box 40 can not arrange the second groove portion 426.

In the above-described embodiment, show the formation as organism testing fixture 1 with band portion 26, but the present invention being not limited thereto, can also be the formation without band portion 26.

In the above-described embodiment, show the formation of the input equipment such as output device and not shown action button had as display part 25, but the present invention is not limited thereto, and can also be the formation without above-mentioned input equipment and output device.In addition, in such formation, can also be that organism testing fixture 1 is configured to be communicated with external device (ED) by wire communication or radio communication, control measure beginning or measure the various actions such as end based on the control signal from external device (ED).Further, organism testing fixture 1 external device can also send measurement result.

In the above-described embodiment, the formation etc. measuring module 10 is assembled under the state in the container that variable-wavelength interference filter 5 to be contained in and to hold in independent mode can also be formed in.At this moment, by by internal tank vacuum sealing, the electrostatic actuator 56 that can improve to variable-wavelength interference filter 5 applies driving response during voltage.In addition, can also be when variable-wavelength interference filter 5 is contained in container, at this container configuration light source portion 11 and light accepting part 12, but the formation of resin mould 14 is not set.

In the above-described embodiment, variable-wavelength interference filter 5 changes the formation of the electrostatic actuator 56 of the gap size between reflectance coating 54,55 by applying voltage for having, but, be not limited thereto.

Such as, can also be adopt configuration first induction coil replacing fixed electrode 561, configure the second induction coil or permanent magnet to replace the formation of the induction actuator of movable electrode 562.

And, can also be adopt piezo-activator to replace the formation of electrostatic actuator 56.At this moment, such as pass through in maintaining part 522 laminated configuration lower electrode layer, piezoelectric film and top electrode layer, change as input value using the voltage put between lower electrode layer and top electrode layer, thus piezoelectric film can be made flexible and maintaining part 522 is bent.

In the above-described embodiment, as Fabry-Perot etalon, show the variable-wavelength interference filter 5 that fixing base 51 and movable substrate 52 engage with state respect to one another, wherein, fixing base 51 is provided with fixation reflex film 54, movable substrate 52 is provided with movable reflectance coating 55, but is not limited thereto.

Can also be such as, fixing base 51 and movable substrate 52 engage, and arrange the formation etc. of the gap changing unit for changing the gap between the reflectance coatings such as piezoelectric element between these substrates.

Further, what be not limited to be made up of two substrates is formed.Can also adopt such as, on one substrate across stacked two reflectance coatings of sacrifice layer, remove sacrifice layer by etching method etc., thus form the variable-wavelength interference filter in gap.

In the above-described embodiment, variable-wavelength interference filter 5 is illustrated as a point optical filter, but, the present invention is not limited thereto, and can also adopt such as AOTF (AcoustoOpticTunableFilter: acousto-optic tunable filter) or LCTF (LiquidCrystalTunableFilter: liquid crystal tunable filter).But, for the viewpoint of equipment miniaturization, as shown in the respective embodiments described above, preferably adopt fabry-perot filter.

In the above-described embodiment, show organism testing fixture as spectroscopic measurement device, but the present invention is not limited thereto.Can apply the present invention to such as obtain the three-strip camera of spectral image, carry out obtaining as the composition analysis device etc. of the component analysis of the food measuring target the various devices of spectral image or spectrophotometric spectra.

In the above-described embodiment, show the formation possessing and there is the mensuration module that can change point optical filter measuring target wavelength, but the present invention is not limited thereto, the mensuration module of the spectral photometry such as can implementing the mensuration wavelength specified can also be adopted.

In addition, in the scope that can realize object of the present invention, concrete structure when implementing of the present invention can also be consisted of appropriately combined above-mentioned embodiment and variation, and, can also suitably change to other structure etc.

Claims

1. a spectroscopic measurement device, is characterized in that, possesses:

Measure module, obtain the light quantity of the light of the mensuration target wavelength be included in incident illumination; And

Housing, holds described mensuration module, and has the window portion making to pass through towards the light of described mensuration module,

Region in the surface of described housing, that at least surround described window portion is provided with bonding part,

In the top view observed along the direction towards the optical axis of the light of described mensuration module, the outside in the described window portion that described bonding part has in this region surrounds this window portion, and at least blocks the light shielding part of the light of the mensuration wavelength region comprising described mensuration target wavelength.

2. spectroscopic measurement device according to claim 1, is characterized in that,

In described top view, described light shielding part is arranged on the inner side of the outer peripheral edge of described bonding part.

3. spectroscopic measurement device according to claim 2, is characterized in that,

In described top view, described light shielding part is arranged along the outer rim in described window portion.

4. spectroscopic measurement device according to any one of claim 1 to 3, is characterized in that,

Described bonding part has the transmittance section of the light transmission at least making described mensuration wavelength region, described light shielding part and described transmittance section integrally formed.

5. spectroscopic measurement device according to any one of claim 1 to 4, is characterized in that,

Described bonding part has the transmittance section being arranged at position overlapping with described window portion in described top view, at least making the light transmission of described mensuration wavelength region,

Described window portion has the opening being arranged on described housing and the light transparent member being configured in this opening,

The refractivity of described transmittance section and described light transparent member is below the threshold value specified.

6. spectroscopic measurement device according to any one of claim 1 to 5, is characterized in that, also comprises:

Circuit substrate, described circuit substrate is provided with the control part controlling this spectroscopic measurement device,

Described light shielding part contains carbon conductive filler and has electric conductivity,

Described housing has the wiring making described light shielding part and described circuit substrate conducting.

7. spectroscopic measurement device according to any one of claim 1 to 6, is characterized in that,

Described mensuration module possesses:

Light source portion, to target illumination light;

Divide optical filter, penetrate select the light of the wavelength specified from the light from described target after, and the wavelength of the light of injection can be changed; And

Light accepting part, receives the light from described point of optical filter.

8. a safe deposit box, is characterized in that,

Be contained in multiple bonding sheets bonding part being pasted with stripping film, described bonding part is arranged on going up at least partially of the surface of spectroscopic measurement device, and described spectroscopic measurement device obtains the light quantity of the light of the mensuration target wavelength be included in incident illumination,

Described spectroscopic measurement device possesses:

Measure module, obtain described light quantity; And

The surface set of described housing has and at least surrounds described window portion and the region arranging described bonding part,

In the top view that the direction of the optical axis along the light towards described mensuration module is observed, the outside in the described window portion that described bonding part has in this region surrounds this window portion, at least blocks the light shielding part of the light of the mensuration wavelength region comprising described mensuration target wavelength

Described safe deposit box possesses:

Bottom, has the placed side of placing described bonding sheet; And

Sidewall portion, continuous from the surrounding of described placed side, be toward or away from connecing of described bottom along described spectroscopic measurement device and arrange from direction,

Described sidewall portion possesses:

First limiting unit, with abutting at least partially of the outer peripheral edge of described stripping film, limits and the described position connect from the described stripping film in orthogonal face, direction; And

Second limiting unit, when by described window portion towards described placed side, make described spectroscopic measurement device along be toward or away to connect described in described bottom move from direction time, abutting at least partially of the outer peripheral edge of described second limiting unit and described housing, limit the position of the described spectroscopic measurement device in described orthogonal face, with make described connect observe on direction time described bonding part and described region overlapping.